Orthogonal Filter Frequency Followed by LNA Linearity Tuning for Efficient Instinctual GaN Receiver Front-End

This work presents an interference-adaptive Gallium Nitride (GaN) low-noise amplifier (LNA) front-end with orthogonal frequency and linearity tuning for applications in communication base stations, radar and electronic warfare (EW). The system operates between 2–6 GHz and provides a sub 5 ms tuning time for an input power tuning range of 40 dB. The orthogonal tuning consists of two phases: 1. frequency tuning with four tunable bandpass and bandstop filters for interference rejection, 2. linearity tuning with a combination of coarse tuning through look-up table (LUT) and fine-tuning through incremental adaptation to trade off power with linearity. GaN LNA’s linearity can be adjusted between P textsubscript 1dB,IN = -10 and 1.5 dBm with output P textsubscript 1dB up to 25 dBm (11.5 dB range) with the LNA power changing from 500 mW to 2 W (x4 increase). The average LNA power with orthogonal frequency and linearity tuning decreases by 56% as compared with the system operating at the worst-case no tuning condition. Two systems involving commercial filters and custom cavity resonator-based filters were constructed. The filters further increase the system P textsubscript 1dB,IN by the filter rejection of the interference signal. The rest of the controls consume about 10% of the worst-case condition LNA power.